A development-stage technology company creating photolytic, photovoltaic, and photocatalytic products arising from its technology platform, in which nano-structured plastic templates cause high local stresses in applied thin film semiconductors, thereby shifting their bandgap for more efficient solar absorption.
Founded on commercial agreements with Rice University and the University of Houston, NanoRidge has exclusive licenses for the use of technologies focused on applications of carbon nanotubes and other nanoparticles for production and sales of advanced nanomaterials.
Nanosolar's component nanoengineering capabilities are focused on certain optoelectronically relevant materials and include semiconductor quantum dots and nanoparticles as well as nanotemplates with precise three-dimensional order.
NanoSpective specializes in advanced materials characterization. The company uses cutting edge technology and state of the art equipment to perform nanoscale and macroscopic property evaluation of materials.
The company was founded to commercialize a new generation of cavitation reentrant jet-based tools and processes. NanoSpire provides the first machine tool capable of cutting, drilling, welding, hammering, and annealing materials only a few nanometers in size by harnessing cavitation microjets.
The company manufactures and sells benchtop systems for growing high quality carbon nanotubes for education, research and product development. They also have CNT arrays available for sale that are more than adequate for research or product development purposes.
Nanotrons Corporation is a wholly owned subsidiary of Agiltron Inc. Nanotrons' vision is to leverage its proprietary advanced nano-engineering technologies to develop solutions to various 21st century challenges confronted by mankind related to energy, water, environment, and terrorism.
Commercializes nanoscale droplet technology being developed at the University of California, Irvine. The droplet technology provides high-precision, digital control of biochemical processes at the nanoscale.